zircon/system/ulib/zxio/remote.cc - fuchsia - Git at Google

 // Copyright 2018 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include <fuchsia/io/llcpp/fidl.h>
 #include <lib/zx/channel.h>
 #include <lib/zxio/inception.h>
 #include <lib/zxio/null.h>
 #include <lib/zxio/ops.h>
 #include <zircon/syscalls.h>

 #include "private.h"

 namespace fio = llcpp::fuchsia::io;

 namespace {

 // C++ wrapper around zxio_remote_t.
 class Remote {
  public:
   explicit Remote(zxio_t* io) : rio_(reinterpret_cast<zxio_remote_t*>(io)) {}

   [[nodiscard]] zx::unowned_channel control() const { return zx::unowned_channel(rio_->control); }

   zx::handle Release() {
     zx::handle control(rio_->control);
     rio_->control = ZX_HANDLE_INVALID;
     if (rio_->event != ZX_HANDLE_INVALID) {
       zx_handle_close(rio_->event);
       rio_->event = ZX_HANDLE_INVALID;
     }
     return control;
   }

  private:
   zxio_remote_t* rio_;
 };

 zx_status_t zxio_remote_close(zxio_t* io) {
   Remote rio(io);
   auto result = fio::Node::Call::Close(rio.control());
   rio.Release().reset();
   return result.ok() ? result.Unwrap()->s : result.status();
 }

 zx_status_t zxio_remote_release(zxio_t* io, zx_handle_t* out_handle) {
   Remote rio(io);
   *out_handle = rio.Release().release();
   return ZX_OK;
 }

 zx_status_t zxio_remote_clone(zxio_t* io, zx_handle_t* out_handle) {
   Remote rio(io);
   zx::channel local, remote;
   zx_status_t status = zx::channel::create(0, &local, &remote);
   if (status != ZX_OK) {
     return status;
   }
   uint32_t flags = fio::CLONE_FLAG_SAME_RIGHTS;
   auto result = fio::Node::Call::Clone(rio.control(), flags, std::move(remote));
   if (result.status() != ZX_OK) {
     return result.status();
   }
   *out_handle = local.release();
   return ZX_OK;
 }

 zx_status_t zxio_remote_sync(zxio_t* io) {
   Remote rio(io);
   auto result = fio::Node::Call::Sync(rio.control());
   return result.ok() ? result.Unwrap()->s : result.status();
 }

 zx_status_t zxio_remote_attr_get(zxio_t* io, zxio_node_attr_t* out_attr) {
   Remote rio(io);
   auto result = fio::Node::Call::GetAttr(rio.control());
   if (result.status() != ZX_OK) {
     return result.status();
   }
   if (auto status = result.Unwrap()->s; status != ZX_OK) {
     return status;
   }
   *out_attr = result.Unwrap()->attributes;
   return ZX_OK;
 }

 zx_status_t zxio_remote_attr_set(zxio_t* io, uint32_t flags, const zxio_node_attr_t* attr) {
   Remote rio(io);
   auto result = fio::Node::Call::SetAttr(rio.control(), flags, *attr);
   return result.ok() ? result.Unwrap()->s : result.status();
 }

 template <typename F>
 static zx_status_t zxio_remote_do_vector(zxio_t* io, const zx_iovec_t* vector, size_t vector_count,
                                          zxio_flags_t flags, size_t* out_actual, F fn) {
   if (flags) {
     return ZX_ERR_NOT_SUPPORTED;
   }
   Remote rio(io);

   return zxio_do_vector(vector, vector_count, out_actual,
                         [&](void* data, size_t capacity, size_t* out_actual) {
                           auto buffer = static_cast<uint8_t*>(data);
                           size_t total = 0;
                           while (capacity > 0) {
                             size_t chunk = std::min(capacity, fio::MAX_BUF);
                             size_t actual;
                             zx_status_t status = fn(rio.control(), buffer, chunk, &actual);
                             if (status != ZX_OK) {
                               return status;
                             }
                             total += actual;
                             if (actual != chunk) {
                               break;
                             }
                             buffer += actual;
                             capacity -= actual;
                           }
                           *out_actual = total;
                           return ZX_OK;
                         });
 }

 zx_status_t zxio_remote_read_vector(zxio_t* io, const zx_iovec_t* vector, size_t vector_count,
                                     zxio_flags_t flags, size_t* out_actual) {
   return zxio_remote_do_vector(
       io, vector, vector_count, flags, out_actual,
       [](zx::unowned_channel control, uint8_t* buffer, size_t capacity, size_t* out_actual) {
         // Explicitly allocating message buffers to avoid heap allocation.
         fidl::Buffer<fio::File::ReadRequest> request_buffer;
         fidl::Buffer<fio::File::ReadResponse> response_buffer;
         auto result = fio::File::Call::Read(std::move(control), request_buffer.view(), capacity,
                                             response_buffer.view());
         zx_status_t status;
         if ((status = result.status()) != ZX_OK) {
           return status;
         }
         if ((status = result->s) != ZX_OK) {
           return status;
         }
         const auto& data = result->data;
         size_t actual = data.count();
         if (actual > capacity) {
           return ZX_ERR_IO;
         }
         memcpy(buffer, data.begin(), actual);
         *out_actual = actual;
         return ZX_OK;
       });
 }

 zx_status_t zxio_remote_read_vector_at(zxio_t* io, zx_off_t offset, const zx_iovec_t* vector,
                                        size_t vector_count, zxio_flags_t flags,
                                        size_t* out_actual) {
   return zxio_remote_do_vector(
       io, vector, vector_count, flags, out_actual,
       [&offset](zx::unowned_channel control, uint8_t* buffer, size_t capacity, size_t* out_actual) {
         fidl::Buffer<fio::File::ReadAtRequest> request_buffer;
         fidl::Buffer<fio::File::ReadAtResponse> response_buffer;
         auto result = fio::File::Call::ReadAt(std::move(control), request_buffer.view(), capacity,
                                               offset, response_buffer.view());
         zx_status_t status;
         if ((status = result.status()) != ZX_OK) {
           return status;
         }
         if ((status = result->s) != ZX_OK) {
           return status;
         }
         const auto& data = result->data;
         size_t actual = data.count();
         if (actual > capacity) {
           return ZX_ERR_IO;
         }
         offset += actual;
         memcpy(buffer, data.begin(), actual);
         *out_actual = actual;
         return ZX_OK;
       });
 }

 zx_status_t zxio_remote_write_vector(zxio_t* io, const zx_iovec_t* vector, size_t vector_count,
                                      zxio_flags_t flags, size_t* out_actual) {
   return zxio_remote_do_vector(
       io, vector, vector_count, flags, out_actual,
       [](zx::unowned_channel control, uint8_t* buffer, size_t capacity, size_t* out_actual) {
         // Explicitly allocating message buffers to avoid heap allocation.
         fidl::Buffer<fio::File::WriteRequest> request_buffer;
         fidl::Buffer<fio::File::WriteResponse> response_buffer;
         auto result =
             fio::File::Call::Write(std::move(control), request_buffer.view(),
                                    fidl::VectorView(buffer, capacity), response_buffer.view());
         zx_status_t status;
         if ((status = result.status()) != ZX_OK) {
           return status;
         }
         if ((status = result->s) != ZX_OK) {
           return status;
         }
         size_t actual = result->actual;
         if (actual > capacity) {
           return ZX_ERR_IO;
         }
         *out_actual = actual;
         return ZX_OK;
       });
 }

 zx_status_t zxio_remote_write_vector_at(zxio_t* io, zx_off_t offset, const zx_iovec_t* vector,
                                         size_t vector_count, zxio_flags_t flags,
                                         size_t* out_actual) {
   return zxio_remote_do_vector(
       io, vector, vector_count, flags, out_actual,
       [&offset](zx::unowned_channel control, uint8_t* buffer, size_t capacity, size_t* out_actual) {
         // Explicitly allocating message buffers to avoid heap allocation.
         fidl::Buffer<fio::File::WriteAtRequest> request_buffer;
         fidl::Buffer<fio::File::WriteAtResponse> response_buffer;
         auto result = fio::File::Call::WriteAt(std::move(control), request_buffer.view(),
                                                fidl::VectorView(buffer, capacity), offset,
                                                response_buffer.view());
         zx_status_t status;
         if ((status = result.status()) != ZX_OK) {
           return status;
         }
         if ((status = result->s) != ZX_OK) {
           return status;
         }
         size_t actual = result->actual;
         if (actual > capacity) {
           return ZX_ERR_IO;
         }
         offset += actual;
         *out_actual = actual;
         return ZX_OK;
       });
 }

 zx_status_t zxio_remote_seek(zxio_t* io, zx_off_t offset, zxio_seek_origin_t start,
                              size_t* out_offset) {
   Remote rio(io);
   auto result = fio::File::Call::Seek(rio.control(), offset, static_cast<fio::SeekOrigin>(start));
   if (result.status() != ZX_OK) {
     return result.status();
   }
   if (auto status = result.Unwrap()->s; status != ZX_OK) {
     return status;
   }
   *out_offset = result.Unwrap()->offset;
   return ZX_OK;
 }

 zx_status_t zxio_remote_truncate(zxio_t* io, size_t length) {
   Remote rio(io);
   auto result = fio::File::Call::Truncate(rio.control(), length);
   return result.ok() ? result.Unwrap()->s : result.status();
 }

 zx_status_t zxio_remote_flags_get(zxio_t* io, uint32_t* out_flags) {
   Remote rio(io);
   auto result = fio::File::Call::GetFlags(rio.control());
   if (result.status() != ZX_OK) {
     return result.status();
   }
   if (auto status = result.Unwrap()->s; status != ZX_OK) {
     return status;
   }
   *out_flags = result.Unwrap()->flags;
   return ZX_OK;
 }

 zx_status_t zxio_remote_flags_set(zxio_t* io, uint32_t flags) {
   Remote rio(io);
   auto result = fio::File::Call::SetFlags(rio.control(), flags);
   return result.ok() ? result.Unwrap()->s : result.status();
 }

 zx_status_t zxio_remote_vmo_get(zxio_t* io, uint32_t flags, zx_handle_t* out_vmo,
                                 size_t* out_size) {
   Remote rio(io);
   auto result = fio::File::Call::GetBuffer(rio.control(), flags);
   if (result.status() != ZX_OK) {
     return result.status();
   }
   fio::File::GetBufferResponse* response = result.Unwrap();
   if (response->s != ZX_OK) {
     return response->s;
   }
   llcpp::fuchsia::mem::Buffer* buffer = response->buffer;
   if (!buffer) {
     return ZX_ERR_IO;
   }
   if (buffer->vmo == ZX_HANDLE_INVALID) {
     return ZX_ERR_IO;
   }
   *out_vmo = buffer->vmo.release();
   *out_size = buffer->size;
   return ZX_OK;
 }

 zx_status_t zxio_remote_open_async(zxio_t* io, uint32_t flags, uint32_t mode, const char* path,
                                    size_t path_len, zx_handle_t request) {
   Remote rio(io);
   auto result = fio::Directory::Call::Open(
       rio.control(), flags, mode, fidl::StringView(path, path_len), zx::channel(request));
   return result.status();
 }

 zx_status_t zxio_remote_unlink(zxio_t* io, const char* path) {
   Remote rio(io);
   auto result = fio::Directory::Call::Unlink(rio.control(), fidl::StringView(path, strlen(path)));
   return result.ok() ? result.Unwrap()->s : result.status();
 }

 zx_status_t zxio_remote_token_get(zxio_t* io, zx_handle_t* out_token) {
   Remote rio(io);
   auto result = fio::Directory::Call::GetToken(rio.control());
   if (result.status() != ZX_OK) {
     return result.status();
   }
   if (auto status = result.Unwrap()->s; status != ZX_OK) {
     return status;
   }
   *out_token = result.Unwrap()->token.release();
   return ZX_OK;
 }

 zx_status_t zxio_remote_rename(zxio_t* io, const char* src_path, zx_handle_t dst_token,
                                const char* dst_path) {
   Remote rio(io);
   auto result = fio::Directory::Call::Rename(
       rio.control(), fidl::StringView(src_path, strlen(src_path)), zx::handle(dst_token),
       fidl::StringView(dst_path, strlen(dst_path)));
   return result.ok() ? result.Unwrap()->s : result.status();
 }

 zx_status_t zxio_remote_link(zxio_t* io, const char* src_path, zx_handle_t dst_token,
                              const char* dst_path) {
   Remote rio(io);
   auto result = fio::Directory::Call::Link(
       rio.control(), fidl::StringView(src_path, strlen(src_path)), zx::handle(dst_token),
       fidl::StringView(dst_path, strlen(dst_path)));
   return result.ok() ? result.Unwrap()->s : result.status();
 }

 zx_status_t zxio_remote_readdir(zxio_t* io, void* buffer, size_t capacity, size_t* out_actual) {
   Remote rio(io);
   // Explicitly allocating message buffers to avoid heap allocation.
   fidl::Buffer<fio::Directory::ReadDirentsRequest> request_buffer;
   fidl::Buffer<fio::Directory::ReadDirentsResponse> response_buffer;
   auto result = fio::Directory::Call::ReadDirents(rio.control(), request_buffer.view(), capacity,
                                                   response_buffer.view());
   if (result.status() != ZX_OK) {
     return result.status();
   }
   fio::Directory::ReadDirentsResponse* response = result.Unwrap();
   if (response->s != ZX_OK) {
     return response->s;
   }
   const auto& dirents = response->dirents;
   if (dirents.count() > capacity) {
     return ZX_ERR_IO;
   }
   memcpy(buffer, dirents.data(), dirents.count());
   *out_actual = dirents.count();
   return response->s;
 }

 zx_status_t zxio_remote_rewind(zxio_t* io) {
   Remote rio(io);
   auto result = fio::Directory::Call::Rewind(rio.control());
   return result.ok() ? result.Unwrap()->s : result.status();
 }

 zx_status_t zxio_remote_isatty(zxio_t* io, bool* tty) {
   Remote rio(io);
   auto result = fio::Node::Call::Describe(rio.control());
   if (result.status() != ZX_OK) {
     return result.status();
   }
   *tty = result.Unwrap()->info.is_tty();
   return ZX_OK;
 }

 }  // namespace

 static constexpr zxio_ops_t zxio_remote_ops = []() {
   zxio_ops_t ops = zxio_default_ops;
   ops.close = zxio_remote_close;
   ops.release = zxio_remote_release;
   ops.clone = zxio_remote_clone;
   ops.sync = zxio_remote_sync;
   ops.attr_get = zxio_remote_attr_get;
   ops.attr_set = zxio_remote_attr_set;
   ops.read_vector = zxio_remote_read_vector;
   ops.read_vector_at = zxio_remote_read_vector_at;
   ops.write_vector = zxio_remote_write_vector;
   ops.write_vector_at = zxio_remote_write_vector_at;
   ops.seek = zxio_remote_seek;
   ops.truncate = zxio_remote_truncate;
   ops.flags_get = zxio_remote_flags_get;
   ops.flags_set = zxio_remote_flags_set;
   ops.vmo_get = zxio_remote_vmo_get;
   ops.open_async = zxio_remote_open_async;
   ops.unlink = zxio_remote_unlink;
   ops.token_get = zxio_remote_token_get;
   ops.rename = zxio_remote_rename;
   ops.link = zxio_remote_link;
   ops.readdir = zxio_remote_readdir;
   ops.rewind = zxio_remote_rewind;
   ops.isatty = zxio_remote_isatty;
   return ops;
 }();

 zx_status_t zxio_remote_init(zxio_storage_t* storage, zx_handle_t control, zx_handle_t event) {
   auto remote = reinterpret_cast<zxio_remote_t*>(storage);
   zxio_init(&remote->io, &zxio_remote_ops);
   remote->control = control;
   remote->event = event;
   return ZX_OK;
 }

 namespace {

 zx_status_t zxio_dir_read_vector(zxio_t* io, const zx_iovec_t* vector, size_t vector_count,
                                  zxio_flags_t flags, size_t* out_actual) {
   if (flags) {
     return ZX_ERR_NOT_SUPPORTED;
   }

   return zxio_do_vector(vector, vector_count, out_actual,
                         [](void* buffer, size_t capacity, size_t* out_actual) {
                           if (capacity > 0) {
                             return ZX_ERR_WRONG_TYPE;
                           }
                           *out_actual = 0;
                           return ZX_OK;
                         });
 }

 zx_status_t zxio_dir_read_vector_at(zxio_t* io, zx_off_t offset, const zx_iovec_t* vector,
                                     size_t vector_count, zxio_flags_t flags, size_t* out_actual) {
   return zxio_dir_read_vector(io, vector, vector_count, flags, out_actual);
 }

 }  // namespace

 static constexpr zxio_ops_t zxio_dir_ops = []() {
   zxio_ops_t ops = zxio_default_ops;
   ops.close = zxio_remote_close;
   ops.release = zxio_remote_release;
   ops.clone = zxio_remote_clone;
   ops.sync = zxio_remote_sync;
   ops.attr_get = zxio_remote_attr_get;
   ops.attr_set = zxio_remote_attr_set;
   // use specialized read functions that succeed for zero-sized reads.
   ops.read_vector = zxio_dir_read_vector;
   ops.read_vector_at = zxio_dir_read_vector_at;
   ops.flags_get = zxio_remote_flags_get;
   ops.flags_set = zxio_remote_flags_set;
   ops.open_async = zxio_remote_open_async;
   ops.unlink = zxio_remote_unlink;
   ops.token_get = zxio_remote_token_get;
   ops.rename = zxio_remote_rename;
   ops.link = zxio_remote_link;
   ops.readdir = zxio_remote_readdir;
   ops.rewind = zxio_remote_rewind;
   return ops;
 }();

 zx_status_t zxio_dir_init(zxio_storage_t* storage, zx_handle_t control) {
   auto remote = reinterpret_cast<zxio_remote_t*>(storage);
   zxio_init(&remote->io, &zxio_dir_ops);
   remote->control = control;
   remote->event = ZX_HANDLE_INVALID;
   return ZX_OK;
 }

 static constexpr zxio_ops_t zxio_file_ops = []() {
   zxio_ops_t ops = zxio_default_ops;
   ops.close = zxio_remote_close;
   ops.release = zxio_remote_release;
   ops.clone = zxio_remote_clone;
   ops.sync = zxio_remote_sync;
   ops.attr_get = zxio_remote_attr_get;
   ops.attr_set = zxio_remote_attr_set;
   ops.read_vector = zxio_remote_read_vector;
   ops.read_vector_at = zxio_remote_read_vector_at;
   ops.write_vector = zxio_remote_write_vector;
   ops.write_vector_at = zxio_remote_write_vector_at;
   ops.seek = zxio_remote_seek;
   ops.truncate = zxio_remote_truncate;
   ops.flags_get = zxio_remote_flags_get;
   ops.flags_set = zxio_remote_flags_set;
   ops.vmo_get = zxio_remote_vmo_get;
   return ops;
 }();

 zx_status_t zxio_file_init(zxio_storage_t* storage, zx_handle_t control, zx_handle_t event) {
   auto remote = reinterpret_cast<zxio_remote_t*>(storage);
   zxio_init(&remote->io, &zxio_file_ops);
   remote->control = control;
   remote->event = event;
   return ZX_OK;
 }
	// Copyright 2018 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include <fuchsia/io/llcpp/fidl.h>
	#include <lib/zx/channel.h>
	#include <lib/zxio/inception.h>
	#include <lib/zxio/null.h>
	#include <lib/zxio/ops.h>
	#include <zircon/syscalls.h>

	#include "private.h"

	namespace fio = llcpp::fuchsia::io;

	namespace {

	// C++ wrapper around zxio_remote_t.
	class Remote {
	public:
	explicit Remote(zxio_t* io) : rio_(reinterpret_cast<zxio_remote_t*>(io)) {}

	[[nodiscard]] zx::unowned_channel control() const { return zx::unowned_channel(rio_->control); }

	zx::handle Release() {
	zx::handle control(rio_->control);
	rio_->control = ZX_HANDLE_INVALID;
	if (rio_->event != ZX_HANDLE_INVALID) {
	zx_handle_close(rio_->event);
	rio_->event = ZX_HANDLE_INVALID;
	}
	return control;
	}

	private:
	zxio_remote_t* rio_;
	};

	zx_status_t zxio_remote_close(zxio_t* io) {
	Remote rio(io);
	auto result = fio::Node::Call::Close(rio.control());
	rio.Release().reset();
	return result.ok() ? result.Unwrap()->s : result.status();
	}

	zx_status_t zxio_remote_release(zxio_t* io, zx_handle_t* out_handle) {
	Remote rio(io);
	*out_handle = rio.Release().release();
	return ZX_OK;
	}

	zx_status_t zxio_remote_clone(zxio_t* io, zx_handle_t* out_handle) {
	Remote rio(io);
	zx::channel local, remote;
	zx_status_t status = zx::channel::create(0, &local, &remote);
	if (status != ZX_OK) {
	return status;
	}
	uint32_t flags = fio::CLONE_FLAG_SAME_RIGHTS;
	auto result = fio::Node::Call::Clone(rio.control(), flags, std::move(remote));
	if (result.status() != ZX_OK) {
	return result.status();
	}
	*out_handle = local.release();
	return ZX_OK;
	}

	zx_status_t zxio_remote_sync(zxio_t* io) {
	Remote rio(io);
	auto result = fio::Node::Call::Sync(rio.control());
	return result.ok() ? result.Unwrap()->s : result.status();
	}

	zx_status_t zxio_remote_attr_get(zxio_t* io, zxio_node_attr_t* out_attr) {
	Remote rio(io);
	auto result = fio::Node::Call::GetAttr(rio.control());
	if (result.status() != ZX_OK) {
	return result.status();
	}
	if (auto status = result.Unwrap()->s; status != ZX_OK) {
	return status;
	}
	*out_attr = result.Unwrap()->attributes;
	return ZX_OK;
	}

	zx_status_t zxio_remote_attr_set(zxio_t* io, uint32_t flags, const zxio_node_attr_t* attr) {
	Remote rio(io);
	auto result = fio::Node::Call::SetAttr(rio.control(), flags, *attr);
	return result.ok() ? result.Unwrap()->s : result.status();
	}

	template <typename F>
	static zx_status_t zxio_remote_do_vector(zxio_t* io, const zx_iovec_t* vector, size_t vector_count,
	zxio_flags_t flags, size_t* out_actual, F fn) {
	if (flags) {
	return ZX_ERR_NOT_SUPPORTED;
	}
	Remote rio(io);

	return zxio_do_vector(vector, vector_count, out_actual,
	[&](void* data, size_t capacity, size_t* out_actual) {
	auto buffer = static_cast<uint8_t*>(data);
	size_t total = 0;
	while (capacity > 0) {
	size_t chunk = std::min(capacity, fio::MAX_BUF);
	size_t actual;
	zx_status_t status = fn(rio.control(), buffer, chunk, &actual);
	if (status != ZX_OK) {
	return status;
	}
	total += actual;
	if (actual != chunk) {
	break;
	}
	buffer += actual;
	capacity -= actual;
	}
	*out_actual = total;
	return ZX_OK;
	});
	}

	zx_status_t zxio_remote_read_vector(zxio_t* io, const zx_iovec_t* vector, size_t vector_count,
	zxio_flags_t flags, size_t* out_actual) {
	return zxio_remote_do_vector(
	io, vector, vector_count, flags, out_actual,
	[](zx::unowned_channel control, uint8_t* buffer, size_t capacity, size_t* out_actual) {
	// Explicitly allocating message buffers to avoid heap allocation.
	fidl::Buffer<fio::File::ReadRequest> request_buffer;
	fidl::Buffer<fio::File::ReadResponse> response_buffer;
	auto result = fio::File::Call::Read(std::move(control), request_buffer.view(), capacity,
	response_buffer.view());
	zx_status_t status;
	if ((status = result.status()) != ZX_OK) {
	return status;
	}
	if ((status = result->s) != ZX_OK) {
	return status;
	}
	const auto& data = result->data;
	size_t actual = data.count();
	if (actual > capacity) {
	return ZX_ERR_IO;
	}
	memcpy(buffer, data.begin(), actual);
	*out_actual = actual;
	return ZX_OK;
	});
	}

	zx_status_t zxio_remote_read_vector_at(zxio_t* io, zx_off_t offset, const zx_iovec_t* vector,
	size_t vector_count, zxio_flags_t flags,
	size_t* out_actual) {
	return zxio_remote_do_vector(
	io, vector, vector_count, flags, out_actual,
	[&offset](zx::unowned_channel control, uint8_t* buffer, size_t capacity, size_t* out_actual) {
	fidl::Buffer<fio::File::ReadAtRequest> request_buffer;
	fidl::Buffer<fio::File::ReadAtResponse> response_buffer;
	auto result = fio::File::Call::ReadAt(std::move(control), request_buffer.view(), capacity,
	offset, response_buffer.view());
	zx_status_t status;
	if ((status = result.status()) != ZX_OK) {
	return status;
	}
	if ((status = result->s) != ZX_OK) {
	return status;
	}
	const auto& data = result->data;
	size_t actual = data.count();
	if (actual > capacity) {
	return ZX_ERR_IO;
	}
	offset += actual;
	memcpy(buffer, data.begin(), actual);
	*out_actual = actual;
	return ZX_OK;
	});
	}

	zx_status_t zxio_remote_write_vector(zxio_t* io, const zx_iovec_t* vector, size_t vector_count,
	zxio_flags_t flags, size_t* out_actual) {
	return zxio_remote_do_vector(
	io, vector, vector_count, flags, out_actual,
	[](zx::unowned_channel control, uint8_t* buffer, size_t capacity, size_t* out_actual) {
	// Explicitly allocating message buffers to avoid heap allocation.
	fidl::Buffer<fio::File::WriteRequest> request_buffer;
	fidl::Buffer<fio::File::WriteResponse> response_buffer;
	auto result =
	fio::File::Call::Write(std::move(control), request_buffer.view(),
	fidl::VectorView(buffer, capacity), response_buffer.view());
	zx_status_t status;
	if ((status = result.status()) != ZX_OK) {
	return status;
	}
	if ((status = result->s) != ZX_OK) {
	return status;
	}
	size_t actual = result->actual;
	if (actual > capacity) {
	return ZX_ERR_IO;
	}
	*out_actual = actual;
	return ZX_OK;
	});
	}

	zx_status_t zxio_remote_write_vector_at(zxio_t* io, zx_off_t offset, const zx_iovec_t* vector,
	size_t vector_count, zxio_flags_t flags,
	size_t* out_actual) {
	return zxio_remote_do_vector(
	io, vector, vector_count, flags, out_actual,
	[&offset](zx::unowned_channel control, uint8_t* buffer, size_t capacity, size_t* out_actual) {
	// Explicitly allocating message buffers to avoid heap allocation.
	fidl::Buffer<fio::File::WriteAtRequest> request_buffer;
	fidl::Buffer<fio::File::WriteAtResponse> response_buffer;
	auto result = fio::File::Call::WriteAt(std::move(control), request_buffer.view(),
	fidl::VectorView(buffer, capacity), offset,
	response_buffer.view());
	zx_status_t status;
	if ((status = result.status()) != ZX_OK) {
	return status;
	}
	if ((status = result->s) != ZX_OK) {
	return status;
	}
	size_t actual = result->actual;
	if (actual > capacity) {
	return ZX_ERR_IO;
	}
	offset += actual;
	*out_actual = actual;
	return ZX_OK;
	});
	}

	zx_status_t zxio_remote_seek(zxio_t* io, zx_off_t offset, zxio_seek_origin_t start,
	size_t* out_offset) {
	Remote rio(io);
	auto result = fio::File::Call::Seek(rio.control(), offset, static_cast<fio::SeekOrigin>(start));
	if (result.status() != ZX_OK) {
	return result.status();
	}
	if (auto status = result.Unwrap()->s; status != ZX_OK) {
	return status;
	}
	*out_offset = result.Unwrap()->offset;
	return ZX_OK;
	}

	zx_status_t zxio_remote_truncate(zxio_t* io, size_t length) {
	Remote rio(io);
	auto result = fio::File::Call::Truncate(rio.control(), length);
	return result.ok() ? result.Unwrap()->s : result.status();
	}

	zx_status_t zxio_remote_flags_get(zxio_t* io, uint32_t* out_flags) {
	Remote rio(io);
	auto result = fio::File::Call::GetFlags(rio.control());
	if (result.status() != ZX_OK) {
	return result.status();
	}
	if (auto status = result.Unwrap()->s; status != ZX_OK) {
	return status;
	}
	*out_flags = result.Unwrap()->flags;
	return ZX_OK;
	}

	zx_status_t zxio_remote_flags_set(zxio_t* io, uint32_t flags) {
	Remote rio(io);
	auto result = fio::File::Call::SetFlags(rio.control(), flags);
	return result.ok() ? result.Unwrap()->s : result.status();
	}

	zx_status_t zxio_remote_vmo_get(zxio_t* io, uint32_t flags, zx_handle_t* out_vmo,
	size_t* out_size) {
	Remote rio(io);
	auto result = fio::File::Call::GetBuffer(rio.control(), flags);
	if (result.status() != ZX_OK) {
	return result.status();
	}
	fio::File::GetBufferResponse* response = result.Unwrap();
	if (response->s != ZX_OK) {
	return response->s;
	}
	llcpp::fuchsia::mem::Buffer* buffer = response->buffer;
	if (!buffer) {
	return ZX_ERR_IO;
	}
	if (buffer->vmo == ZX_HANDLE_INVALID) {
	return ZX_ERR_IO;
	}
	*out_vmo = buffer->vmo.release();
	*out_size = buffer->size;
	return ZX_OK;
	}

	zx_status_t zxio_remote_open_async(zxio_t* io, uint32_t flags, uint32_t mode, const char* path,
	size_t path_len, zx_handle_t request) {
	Remote rio(io);
	auto result = fio::Directory::Call::Open(
	rio.control(), flags, mode, fidl::StringView(path, path_len), zx::channel(request));
	return result.status();
	}

	zx_status_t zxio_remote_unlink(zxio_t* io, const char* path) {
	Remote rio(io);
	auto result = fio::Directory::Call::Unlink(rio.control(), fidl::StringView(path, strlen(path)));
	return result.ok() ? result.Unwrap()->s : result.status();
	}

	zx_status_t zxio_remote_token_get(zxio_t* io, zx_handle_t* out_token) {
	Remote rio(io);
	auto result = fio::Directory::Call::GetToken(rio.control());
	if (result.status() != ZX_OK) {
	return result.status();
	}
	if (auto status = result.Unwrap()->s; status != ZX_OK) {
	return status;
	}
	*out_token = result.Unwrap()->token.release();
	return ZX_OK;
	}

	zx_status_t zxio_remote_rename(zxio_t* io, const char* src_path, zx_handle_t dst_token,
	const char* dst_path) {
	Remote rio(io);
	auto result = fio::Directory::Call::Rename(
	rio.control(), fidl::StringView(src_path, strlen(src_path)), zx::handle(dst_token),
	fidl::StringView(dst_path, strlen(dst_path)));
	return result.ok() ? result.Unwrap()->s : result.status();
	}

	zx_status_t zxio_remote_link(zxio_t* io, const char* src_path, zx_handle_t dst_token,
	const char* dst_path) {
	Remote rio(io);
	auto result = fio::Directory::Call::Link(
	rio.control(), fidl::StringView(src_path, strlen(src_path)), zx::handle(dst_token),
	fidl::StringView(dst_path, strlen(dst_path)));
	return result.ok() ? result.Unwrap()->s : result.status();
	}

	zx_status_t zxio_remote_readdir(zxio_t* io, void* buffer, size_t capacity, size_t* out_actual) {
	Remote rio(io);
	// Explicitly allocating message buffers to avoid heap allocation.
	fidl::Buffer<fio::Directory::ReadDirentsRequest> request_buffer;
	fidl::Buffer<fio::Directory::ReadDirentsResponse> response_buffer;
	auto result = fio::Directory::Call::ReadDirents(rio.control(), request_buffer.view(), capacity,
	response_buffer.view());
	if (result.status() != ZX_OK) {
	return result.status();
	}
	fio::Directory::ReadDirentsResponse* response = result.Unwrap();
	if (response->s != ZX_OK) {
	return response->s;
	}
	const auto& dirents = response->dirents;
	if (dirents.count() > capacity) {
	return ZX_ERR_IO;
	}
	memcpy(buffer, dirents.data(), dirents.count());
	*out_actual = dirents.count();
	return response->s;
	}

	zx_status_t zxio_remote_rewind(zxio_t* io) {
	Remote rio(io);
	auto result = fio::Directory::Call::Rewind(rio.control());
	return result.ok() ? result.Unwrap()->s : result.status();
	}

	zx_status_t zxio_remote_isatty(zxio_t* io, bool* tty) {
	Remote rio(io);
	auto result = fio::Node::Call::Describe(rio.control());
	if (result.status() != ZX_OK) {
	return result.status();
	}
	*tty = result.Unwrap()->info.is_tty();
	return ZX_OK;
	}

	} // namespace

	static constexpr zxio_ops_t zxio_remote_ops = []() {
	zxio_ops_t ops = zxio_default_ops;
	ops.close = zxio_remote_close;
	ops.release = zxio_remote_release;
	ops.clone = zxio_remote_clone;
	ops.sync = zxio_remote_sync;
	ops.attr_get = zxio_remote_attr_get;
	ops.attr_set = zxio_remote_attr_set;
	ops.read_vector = zxio_remote_read_vector;
	ops.read_vector_at = zxio_remote_read_vector_at;
	ops.write_vector = zxio_remote_write_vector;
	ops.write_vector_at = zxio_remote_write_vector_at;
	ops.seek = zxio_remote_seek;
	ops.truncate = zxio_remote_truncate;
	ops.flags_get = zxio_remote_flags_get;
	ops.flags_set = zxio_remote_flags_set;
	ops.vmo_get = zxio_remote_vmo_get;
	ops.open_async = zxio_remote_open_async;
	ops.unlink = zxio_remote_unlink;
	ops.token_get = zxio_remote_token_get;
	ops.rename = zxio_remote_rename;
	ops.link = zxio_remote_link;
	ops.readdir = zxio_remote_readdir;
	ops.rewind = zxio_remote_rewind;
	ops.isatty = zxio_remote_isatty;
	return ops;
	}();

	zx_status_t zxio_remote_init(zxio_storage_t* storage, zx_handle_t control, zx_handle_t event) {
	auto remote = reinterpret_cast<zxio_remote_t*>(storage);
	zxio_init(&remote->io, &zxio_remote_ops);
	remote->control = control;
	remote->event = event;
	return ZX_OK;
	}

	namespace {

	zx_status_t zxio_dir_read_vector(zxio_t* io, const zx_iovec_t* vector, size_t vector_count,
	zxio_flags_t flags, size_t* out_actual) {
	if (flags) {
	return ZX_ERR_NOT_SUPPORTED;
	}

	return zxio_do_vector(vector, vector_count, out_actual,
	[](void* buffer, size_t capacity, size_t* out_actual) {
	if (capacity > 0) {
	return ZX_ERR_WRONG_TYPE;
	}
	*out_actual = 0;
	return ZX_OK;
	});
	}

	zx_status_t zxio_dir_read_vector_at(zxio_t* io, zx_off_t offset, const zx_iovec_t* vector,
	size_t vector_count, zxio_flags_t flags, size_t* out_actual) {
	return zxio_dir_read_vector(io, vector, vector_count, flags, out_actual);
	}

	} // namespace

	static constexpr zxio_ops_t zxio_dir_ops = []() {
	zxio_ops_t ops = zxio_default_ops;
	ops.close = zxio_remote_close;
	ops.release = zxio_remote_release;
	ops.clone = zxio_remote_clone;
	ops.sync = zxio_remote_sync;
	ops.attr_get = zxio_remote_attr_get;
	ops.attr_set = zxio_remote_attr_set;
	// use specialized read functions that succeed for zero-sized reads.
	ops.read_vector = zxio_dir_read_vector;
	ops.read_vector_at = zxio_dir_read_vector_at;
	ops.flags_get = zxio_remote_flags_get;
	ops.flags_set = zxio_remote_flags_set;
	ops.open_async = zxio_remote_open_async;
	ops.unlink = zxio_remote_unlink;
	ops.token_get = zxio_remote_token_get;
	ops.rename = zxio_remote_rename;
	ops.link = zxio_remote_link;
	ops.readdir = zxio_remote_readdir;
	ops.rewind = zxio_remote_rewind;
	return ops;
	}();

	zx_status_t zxio_dir_init(zxio_storage_t* storage, zx_handle_t control) {
	auto remote = reinterpret_cast<zxio_remote_t*>(storage);
	zxio_init(&remote->io, &zxio_dir_ops);
	remote->control = control;
	remote->event = ZX_HANDLE_INVALID;
	return ZX_OK;
	}

	static constexpr zxio_ops_t zxio_file_ops = []() {
	zxio_ops_t ops = zxio_default_ops;
	ops.close = zxio_remote_close;
	ops.release = zxio_remote_release;
	ops.clone = zxio_remote_clone;
	ops.sync = zxio_remote_sync;
	ops.attr_get = zxio_remote_attr_get;
	ops.attr_set = zxio_remote_attr_set;
	ops.read_vector = zxio_remote_read_vector;
	ops.read_vector_at = zxio_remote_read_vector_at;
	ops.write_vector = zxio_remote_write_vector;
	ops.write_vector_at = zxio_remote_write_vector_at;
	ops.seek = zxio_remote_seek;
	ops.truncate = zxio_remote_truncate;
	ops.flags_get = zxio_remote_flags_get;
	ops.flags_set = zxio_remote_flags_set;
	ops.vmo_get = zxio_remote_vmo_get;
	return ops;
	}();

	zx_status_t zxio_file_init(zxio_storage_t* storage, zx_handle_t control, zx_handle_t event) {
	auto remote = reinterpret_cast<zxio_remote_t*>(storage);
	zxio_init(&remote->io, &zxio_file_ops);
	remote->control = control;
	remote->event = event;
	return ZX_OK;
	}